1) M-transformation-induced plasticity
相交诱发塑性
2) transformation induced plasticity
相变诱发塑性
1.
The elongation of the steel can be enhanced considerably due to strain induced martensite transformation and transformation induced plasticity (TRIP) when it is deformed at a temperature between M s and M d.
该钢在 Ms~ Md 温度之间形变 ,应变诱导相变 ,相变诱发塑性 (TRIP) ,其力学性能指标特别是伸长率大幅度提高。
2.
The steels show high strength as well as comprehensive plasticity because of strain induced phase transformation and transformation induced plasticity (TRIP) happened in the retained austenite in the steels.
在不含Cr,Ni的SiMn结构钢中,因残余奥氏体的应变诱导相变和相变诱发塑性,可得到良好的强度与塑性配合的综合性能·通过对二种成分SiMnTRIP钢力学性能的比较及其组织分析,探讨了TRIP效应提高结构钢力学性能的机理·结果表明,含有一定Mn合金元素的TRIP结构钢,当Si含量小于20%时,含Si量愈高,其力学性能愈好
3.
When the steel changed in form between M s and M d,its tensibility enhanced considerably due to strain induced martensite transformations and transformation induced plasticity (TRIP) of retained austenite.
该钢在MsMd温度之间形变时,因残留奥氏体的应变诱导马氏体相变和相变诱发塑性TRIP,延伸率大幅度提高。
3) TRIP steel
相变诱发塑性钢
1.
The FLD and mechanical properties under high speed impact for low carbon TRIP steel were studied.
对抗拉强度600 MPa级的低碳相变诱发塑性钢(TRIP钢)进行了拉伸、成形、高速冲击拉伸和激光焊接试验。
4) transformation-induced plasticity
相变诱发塑性
1.
Strain-induced transformation and transformation-induced plasticity behavior of retained austenite was discussed through observing the microstructures and examining the mechanical properties of both steels.
通过显微组织观察,力学性能分析,探讨了两种钢的应变诱导相变和相变诱发塑性行为。
2.
The behaviour of TRIP (transformation-induced plasticity) effect was discussed through observing microstructure, analyzing fracture morphology and comparing it with the mechanical properties of high-Si TRIP steels.
无硅TRIP钢采用临界区加热等温淬火热处理,获得铁素体,贝氏体及大量稳定残余奥氏体的三相组织·通过对其显微组织观察,断口形貌分析,与高硅TRIP钢力学性能的相互比较,探讨了无硅TRIP钢相变诱发塑性的行为·结果表明:无硅TRIP钢在拉伸变形过程中,应变诱导相变,相变诱发塑性;其拉伸断口形貌呈韧性断口特征;经790℃加热在400℃等温5min时,抗拉强度达到754MPa,延伸率达到36%,综合性能(强塑积)达到27144MPa%的最高值
3.
The behaviour of transformation-induced plasticity were discussed through observing the microstructure, and analyzing the mechanical properties of TRIP steel replacing Si by Al.
通过对其显微组织观察、力学性能分析,探讨了以A1代Si的TRIP钢的相变诱发塑性的行为。
5) TRIP
[英][trɪp] [美][trɪp]
相变诱发塑性
1.
68Mn (mass%) TRIP steel have been investigated at room temperature.
6×10-6s-1时,高碳硅锰TRIP钢伸长率由14%~15%提高到22%左右;屈服强度由1015MPa提高到1198MPa;抗拉强度由1448MPa提高到1546MPa;拉伸试样中残留奥氏体量减少,这表明在低应变速率下应变诱导相变、相变诱发塑性能充分进行。
6) transformation induced plasticity (TRIP)
相变诱发塑性(TRIP)
补充资料:相变诱发塑性钢
分子式:
CAS号:
性质:有塑性变形强化和相变诱发塑性的高强度高塑性钢,简称TRIP钢。其典型的化学成分为C 0.3%,Cr 8%,Mo 4%,Mn 2%,Si 2%。强度可高达1400MPa至2000MPa,并且在如此之高的强度下还具有高达20%~30%的伸长率。因此,这种钢的冲击韧性和断裂韧性很高,适用于制造低温下工作的压力容器等。
CAS号:
性质:有塑性变形强化和相变诱发塑性的高强度高塑性钢,简称TRIP钢。其典型的化学成分为C 0.3%,Cr 8%,Mo 4%,Mn 2%,Si 2%。强度可高达1400MPa至2000MPa,并且在如此之高的强度下还具有高达20%~30%的伸长率。因此,这种钢的冲击韧性和断裂韧性很高,适用于制造低温下工作的压力容器等。
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